Will they survive? (The Guardian, 2013)
Vitality impairment can be linked to post-capture mortality in fisheries bycatch. Vitality impairment can be estimated by direct observation of animal activity, responsiveness, and injury. For each critical fisheries species in crabs, fishes, sharks, and turtles, reflex actions that are consistently present in healthy, uninjured individuals are listed as control levels. Impairment is signified by loss of reflex action types and addition of injury types after capture.
Reflex actions are fixed, consistent animal behavior patterns that can be triggered by perception of external stimuli (light, sound, smell, gravity, touch). Stimulation of reflex actions is not controlled by body size, motivation, strength of stimulus, or fear. Reflex action traits summed as a whole animal can be an expression of vitality (Davis 2010). In contrast, volitional behavior can be altered by body size, motivation, strength of stimulus, fear, cognition, and as such is not a controlled measure of vitality.
With the species reflexes and potential injury lists, observations of captured animals can be made in commercial and sport fisheries. Patterns of significant impairment can be determined and related to fishing context and species (Raby et al. 2015). These patterns help identify the relative effects of fishing gears, handling, and physical factors (air, temperature, light, pressure) on impairment and potential survival and mortality.
Figure shows overlap between information on animal physiology and fisheries biology, adapted from Horodysky et al. 2015 and modified to show vitality information. Measures of vitality include reflex impairment and injury, which are whole animal measures that are ecologically relevant, linking physiological and population level research and hypothesis testing. Volitional behavior is coordinated whole animal movements beginning with perception and motivation, followed by attraction and aversion to various stimuli (injury, threat, food, shelter, species mates, migration).
Patterns of vitality impairment can guide research questions and priorities to triage fisheries for treatment of bycatch mortality and enhancement of survival. Vitality impairment can measure the efficacy of engineering fishing gears to increase bycatch survival.